An explosion-proof infrared thermal imager is a thermal imaging device specially designed for hazardous environments. It is commonly used to detect and monitor high-temperature, flammable, or explosive substances. Its working principle is similar to that of ordinary infrared thermal imagers, but its design and manufacturing must comply with specific explosion-proof standards and safety requirements.
The explosion-proof infrared thermal imager uses infrared sensors to receive the infrared radiation emitted by the target object. This radiation is proportional to the object's temperature, so the temperature distribution of the object can be determined by detecting the infrared radiation.
The received infrared radiation signal is processed and converted into a thermal image. Signal processing includes amplification, filtering, and digitization steps to ensure the clarity and accuracy of the thermal image.
The processed thermal image is displayed on the device's screen for the operator to observe and analyze. Typically, the thermal image is displayed as a color image, with different colors representing different temperature areas.
The explosion-proof infrared thermal imager is designed and manufactured with explosion-proof requirements in mind to ensure that it does not cause fire or explosion when used in hazardous environments. This includes using explosion-proof enclosures, explosion-proof circuit designs, and other measures.
The explosion-proof infrared thermal imager achieves the monitoring and detection of object temperatures in hazardous environments by receiving, processing, and displaying infrared radiation, ensuring the safety of operators.
